EP2954983B1 - Dichtung von Werkzeug und Verfahren zum Abdichten - Google Patents

Dichtung von Werkzeug und Verfahren zum Abdichten Download PDF

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Publication number
EP2954983B1
EP2954983B1 EP14171686.0A EP14171686A EP2954983B1 EP 2954983 B1 EP2954983 B1 EP 2954983B1 EP 14171686 A EP14171686 A EP 14171686A EP 2954983 B1 EP2954983 B1 EP 2954983B1
Authority
EP
European Patent Office
Prior art keywords
sealing ring
sealing
tool
housing
outer periphery
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Active
Application number
EP14171686.0A
Other languages
English (en)
French (fr)
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EP2954983A1 (de
Inventor
Ossi Kahra
Jyrki Nissinen
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
Sandvik Mining and Construction Oy
Original Assignee
Sandvik Mining and Construction Oy
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by Sandvik Mining and Construction Oy filed Critical Sandvik Mining and Construction Oy
Priority to EP14171686.0A priority Critical patent/EP2954983B1/de
Priority to ES14171686.0T priority patent/ES2620495T3/es
Priority to US14/749,563 priority patent/US9777842B2/en
Publication of EP2954983A1 publication Critical patent/EP2954983A1/de
Application granted granted Critical
Publication of EP2954983B1 publication Critical patent/EP2954983B1/de
Active legal-status Critical Current
Anticipated expiration legal-status Critical

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Classifications

    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F16ENGINEERING ELEMENTS AND UNITS; GENERAL MEASURES FOR PRODUCING AND MAINTAINING EFFECTIVE FUNCTIONING OF MACHINES OR INSTALLATIONS; THERMAL INSULATION IN GENERAL
    • F16JPISTONS; CYLINDERS; SEALINGS
    • F16J15/00Sealings
    • F16J15/54Other sealings for rotating shafts
    • F16J15/545Other sealings for rotating shafts submitted to unbalanced pressure in circumference; seals for oscillating actuator
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B25HAND TOOLS; PORTABLE POWER-DRIVEN TOOLS; MANIPULATORS
    • B25DPERCUSSIVE TOOLS
    • B25D17/00Details of, or accessories for, portable power-driven percussive tools
    • EFIXED CONSTRUCTIONS
    • E02HYDRAULIC ENGINEERING; FOUNDATIONS; SOIL SHIFTING
    • E02FDREDGING; SOIL-SHIFTING
    • E02F3/00Dredgers; Soil-shifting machines
    • E02F3/04Dredgers; Soil-shifting machines mechanically-driven
    • E02F3/96Dredgers; Soil-shifting machines mechanically-driven with arrangements for alternate or simultaneous use of different digging elements
    • E02F3/966Dredgers; Soil-shifting machines mechanically-driven with arrangements for alternate or simultaneous use of different digging elements of hammer-type tools
    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F16ENGINEERING ELEMENTS AND UNITS; GENERAL MEASURES FOR PRODUCING AND MAINTAINING EFFECTIVE FUNCTIONING OF MACHINES OR INSTALLATIONS; THERMAL INSULATION IN GENERAL
    • F16JPISTONS; CYLINDERS; SEALINGS
    • F16J15/00Sealings
    • F16J15/16Sealings between relatively-moving surfaces
    • F16J15/32Sealings between relatively-moving surfaces with elastic sealings, e.g. O-rings
    • F16J15/3268Mounting of sealing rings
    • F16J15/3272Mounting of sealing rings the rings having a break or opening, e.g. to enable mounting on a shaft otherwise than from a shaft end
    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F16ENGINEERING ELEMENTS AND UNITS; GENERAL MEASURES FOR PRODUCING AND MAINTAINING EFFECTIVE FUNCTIONING OF MACHINES OR INSTALLATIONS; THERMAL INSULATION IN GENERAL
    • F16JPISTONS; CYLINDERS; SEALINGS
    • F16J15/00Sealings
    • F16J15/56Other sealings for reciprocating rods
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B25HAND TOOLS; PORTABLE POWER-DRIVEN TOOLS; MANIPULATORS
    • B25DPERCUSSIVE TOOLS
    • B25D2250/00General details of portable percussive tools; Components used in portable percussive tools
    • B25D2250/065Details regarding assembling of the tool
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B25HAND TOOLS; PORTABLE POWER-DRIVEN TOOLS; MANIPULATORS
    • B25DPERCUSSIVE TOOLS
    • B25D2250/00General details of portable percussive tools; Components used in portable percussive tools
    • B25D2250/365Use of seals

Definitions

  • the invention relates to a seal of a tool of a breaking hammer.
  • the seal is a ring-shaped piece.
  • An inner periphery of the seal serves as a sealing surface against the tool.
  • the invention further relates to a sealing arrangement, a breaking hammer and a method of sealing a tool of a breaking hammer.
  • a seal, a sealing arrangement, a breaking hammer and a method of sealing a tool of a breaking hammer according to the preambles of the independent claims are known from US 6 510 904 B1 .
  • Breaking hammers are used to break hard materials, such as rock, concrete, and the like.
  • the breaking hammer comprises a percussion device for generating impact pulses to a breaking tool connectable to the breaking hammer.
  • the tool is sealed to a body of the breaking hammer or other surrounding structure by means of a tool sealing, which is typically a sealing ring.
  • the current sealing arrangements have shown to contain some disadvantages relating to their wear resistance, for example.
  • An object of the invention is to provide a novel and improved seal of a tool.
  • a further object is to provide a novel and improved sealing arrangement, breaking hammer and method of sealing a tool, which all aim to decrease wearing of a seal of a tool.
  • the seal according to the invention is characterized in that the outer periphery of the sealing ring is provided with several projecting elements, and the projecting elements are slanted relative to normal of the outer periphery when seen in an axial direction of the sealing ring.
  • the sealing arrangement according to the invention is characterized in that the sealing ring is in accordance with claims 1 to 6; and the sealing ring is allowed to rotate relative to the sealing housing and the tool in the direction of its periphery.
  • the breaking hammer according to the invention is characterized in that the sealing ring is in accordance with claims 1 to 6; and the sealing ring is allowed to rotate relative to the sealing housing and the tool in the direction of its periphery.
  • the method according to the invention is characterized by using a resilient sealing ring provided with slanted projecting elements on an outer periphery of the sealing ring; allowing the sealing ring to be subjected to forces transverse to longitudinal axis of the tool during use of the breaking hammer; causing the slanted projecting elements of the sealing ring to deform reversibly due to the transverse deflecting forces; recovering the shape of the slanted elements into their initial state after the compression deflecting force is finished and generating a torque in the sealing ring by means of the recovery; and rotating the sealing ring relative to the tool and the sealing housing by means of the generated torque.
  • An idea of the disclosed solution is that a sealing ring of a tool is rotated in the direction of its periphery during use of the breaking hammer. Transverse force subjected to the tool and the sealing ring is utilized for producing a needed torque in the sealing ring.
  • the generated torque is based on slanted projecting elements on an outer periphery of the sealing ring. The slanted projecting elements deform reversibly due to the transverse forces and recover after the force is terminated, whereby the torque is generated during the recovery phase.
  • An advantage of the disclosed solution is that life time of the seal may be longer compared to conventional seals since the sealing ring is turned or rotated during its use. Between the tool and the seal is a sealing surface, which is typically subjected to local or directed wearing. Now the sealing ring changes its position relative to the tool and wearing effect distributes more evenly for the entire sealing surface despite of directed transverse forces. Hence, durability of the sealing ring is improved.
  • the disclosed solution may allow longer life time for the sealing ring itself and also for the sealed structure, and may further decrease need for service and downtime.
  • the sealing ring is allowed to rotate relative to the sealing housing and the tool in the direction of its periphery.
  • the tool is subjected to transverse forces during the use causing relative movement between the tool and the sealing housing.
  • the relative movement between the tool and the sealing housing in a direction transverse to the longitudinal axis of the tool is configured to cause reversible deformation and recovery of slanting projecting elements on the outer periphery of the sealing ring.
  • the succeeding deformation and recovery generates torque and makes the sealing ring to rotate.
  • between the sealing housing and the sealing ring are several converting elements for converting part of the transverse force directed to the sealing ring into torque of the sealing ring.
  • the slanting projecting elements on the outer periphery of the sealing ring are flexible or compressible, whereby the sealing ring may move inside the sealing housing in the transverse direction due to transverse forces directed to the tool.
  • the projecting elements may serve as dampening elements in addition to serving as torque generating elements. Thanks to this dampening, the transverse movement of the sealing ring does not cause deformation to a shape of the inner periphery of the sealing ring, whereby roundness of the inner periphery may be maintained.
  • the dampening aims to maintain the sealing surface unchanged.
  • the dampening may decrease surface pressure between the tool and the inner periphery of the sealing ring because the projecting elements may serve as a flexible or compressible portion in the sealing ring.
  • the sealing housing is provided with a roughening for increasing friction between the sealing ring and the sealing housing.
  • the roughening may be a knurling or grooving, for example.
  • outer surfaces of the projecting elements may have the roughening for the same reason. The increased friction prevents possible slippage between the contacting surfaces and ensures a proper rotation of the sealing ring.
  • the sealing ring is a so called massive sealing ring.
  • relative dimensions of an axial length L and radial thickness RT have a predetermined range.
  • the maximum outer diameter D and minimum inner diameter d of the sealing ring have a predetermined range.
  • the radial thickness RT may be calculated by formula: (D - d) / 2.
  • a first ratio L / RT is 0.5 to 2
  • a second ratio D / d is 1.3 to 3.
  • the massive sealing ring is rigid and durable. The massive sealing ring tolerates well wearing and transverse forces directed to it.
  • the outer periphery of the sealing ring is toothed comprising several slanted teeth.
  • the slanted teeth serve as the slanted projecting elements.
  • the outer periphery of the sealing ring is toothed comprising several slanted teeth. Furthermore, each tooth of the outer periphery of the sealing ring comprises flank surfaces, which are slanted relative to normal of the outer periphery when seen in an axial direction of the sealing ring.
  • the outer periphery of the sealing ring is toothed comprising several slanted teeth. Furthermore, each tooth of the outer periphery of the sealing ring comprises flank surfaces, which are slanted relative to normal of the outer periphery when seen in an axial direction of the sealing ring. Each tooth has a first flank surface, a second flank surface and a tip portion. Further, the first flank surface is curved when seen in axial direction and the second flank surface is planar. The tip portion may be curved.
  • the outer periphery of the sealing ring is toothed comprising several slanted teeth. Furthermore, each tooth of the outer periphery of the sealing ring comprises flank surfaces, which are slanted relative to normal of the outer periphery when seen in an axial direction of the sealing ring. Each tooth has a first flank surface, a second flank surface and a tip portion. Further, the first flank surface and the second flank surface are planar when seen in axial direction. The tip portion may be curved.
  • the projecting elements of the sealing arrangement are bars, pegs, pins, studs or corresponding projecting or protruding elements or shaped pieces. These elements are also slanted as it is described above, whereby they are able to generate the needed torque for rotating the sealing ring when influenced by transverse forces.
  • the disclosed teeth may be substituted with other type of slanted elements, at least in some cases.
  • the seal is made of one or more resilient materials.
  • the resilient material may be temporarily compressed or reshaped and may recover its initial shape after a deflecting force terminates.
  • the sealing ring is made of resilient rubber or rubber -like material.
  • the sealing ring is made of resilient polymer, such as polyurethane PU. Some other elastic polymer materials may also be used.
  • the sealing ring is made of resilient material provided with suitable internal damping. Then the slanted projecting elements of the sealing ring may bend when the sealing ring is subjected to transverse deflecting force, and may return to the original shape after the deflecting force has been terminated.
  • the sealing ring is provided with several predetermined articulation points, which allow an outer form of the sealing ring to be modified for the duration of mounting of the sealing ring.
  • the sealing ring may be a single uniform piece, and despite of that, the sealing ring may be easily mounted in place to a sealing housing.
  • the articulation points allow the structure of the sealing ring to be bent more intensively as compared to basic structure of the sealing ring, and further, less force is needed.
  • the articulation system is especially preferred for a so called massive sealing ring, which is relatively rigid and mounting of which is difficult. Number of the articulation points may be two, three, four, or even more.
  • the sealing ring is provided with several slits, which serve as articulation points and allow an outer shape of the sealing ring to be temporarily modified.
  • the sealing ring comprises at least two outer slits on the outer periphery and at least one inner slit on the inner periphery.
  • the slits have limited radial dimensions without extending to the opposing periphery of the sealing ring, and without shearing the sealing ring into parts. Thereby the sealing ring is a single uniform piece despite of the slits.
  • the at least two outer slits define a mounting sector area between them. At the mounting sector area is located the one or more inner slit.
  • the outer and inner slits allow the mounting sector area to be pushed inwards during mounting in order to decrease outer dimensions of the seal ring for the duration of the mounting of the sealing ring.
  • the sealing ring is provided with two outer slits on the outer periphery and one inner slit on the inner periphery.
  • the outer slits define the mounting sector area having a sector angle 100 - 120°.
  • the inner slit is located in a middle of the mounting sector area.
  • the sealing ring may be set to a mounting state for the duration of the mounting by pushing the mounting sector area inwards.
  • the slits serve as articulation point and allow the sealing ring to amend its outer shape so that the sealing ring may resembles small letter omega symbol ( ⁇ ).
  • small letter omega symbol
  • the sealing ring is provided with several slits, which serve as articulation points.
  • the slits may end up to axial drillings or to corresponding crack preventing end spaces. Thanks to this embodiment durability of the sealing ring is improved since formation of cracks may be avoided.
  • the sealing ring and the sealing housing both have uniform or unbroken structure.
  • the sealing ring When the sealing ring is provided with the articulation points, such as the slits, then it can be mounted to its place as a uniform single piece. There is no need to form the sealing housing of two halves, whereby the structure of the sealing housing may be more rigid.
  • the sealing housing is located at a lower end of the breaking hammer and is thereby subjected to blows and forces.
  • the uniform sealing housing withstands better the harsh environment.
  • the uniform structure improves the rotation of the sealing ring as compared to a sealing ring made of two halves. It has been noted in experiments that when the sealing ring is cut to separate pieces, the end faces of the pieces resist the rotation and no desired effect is achieved.
  • the breaking hammer comprises a protective casing surrounding the percussion device.
  • the protective casing may protect the percussion device against impurities and dents. Further, the protective casing may dampen noise of the percussion device.
  • a lower end of the protective casing is provided with a tool aperture through which the tool is arranged to pass.
  • the sealing housing and the sealing ring are located at the tool aperture of the protective casing.
  • the percussion device comprises a frame and the sealing housing and the sealing ring are located at tool side end of the frame.
  • the breaking hammer is without a protective casing surrounding the percussion device.
  • the breaking hammer comprises a separate sealing frame piece mounted to a tool side end of the breaking hammer.
  • the sealing frame piece is provided with the sealing housing and the sealing ring.
  • the sealing frame piece may be mounted to a lower end of a protective casing surrounding a percussion device.
  • the sealing frame piece may be mounted to a lower end of a frame of the percussion device if the percussion hammer is without any protective casing.
  • the separate sealing frame piece may be a component, which is easy to mount and dismount.
  • the sealing of the tool of the breaking hammer is also suitable for other types of breaking hammers than those disclosed in this patent application.
  • the percussion or impact device may differ from the one shown, for example.
  • Figure 1 shows a breaking hammer 1 arranged on the free end of a boom 2 in a working machine 3, such as an excavator.
  • the boom 2 may be arranged on any movable carriage or on a fixed platform of a crushing apparatus.
  • the breaking hammer 1 comprises a percussion device 4 for generating impact pulses.
  • the breaking hammer 1 may be pressed by means of the boom 2 against material 5 to be broken and impacts may be simultaneously generated with the percussion device 4 to a tool 6 connected to the breaking hammer 1, which transmits the impact pulses to the material 5 to be broken.
  • the percussion device 4 may be hydraulic, whereby it may be connected to the hydraulic system of the working machine 2. Alternatively, the percussion device 4 may be electrically or pneumatically powered.
  • the impact pulses may be generated in the percussion device 4 by means of a percussion element, such as percussion piston, that may be moved back and forth in the impact direction and return direction under the influence of hydraulic fluid.
  • the breaking hammer 1 may comprise a protective casing 7, inside which the percussion device 4 may be located.
  • a sealing arrangement 8 for sealing the tool 6 to the surrounding structures of the breaking hammer.
  • the sealing arrangement 8 comprises a sealing ring disclosed in this patent application.
  • Figure 2 discloses a structure of a breaking hammer 1.
  • the breaking hammer comprises a lower end A at a tool side end and an upper end B provided with mounting means for connecting the breaking hammer 1 to a boom.
  • a percussion device 4 which may comprise a percussion piston 9 arranged to move to and fro relative to a frame 10 of the percussion device 4.
  • An impact surface 11 of the percussion piston 9 is arranged to strike an upper end 12 of a tool 6.
  • the tool 6 may be connected to the breaking hammer 1 by means of a transverse connecting pin. The tool 6 is allowed to move in the axial direction P during the use.
  • a sealing arrangement 8 comprising a sealing ring 14 through which the tool 6 passes.
  • the sealing ring 14 is arranged in a sealing housing 15, which surrounds the tool 6.
  • the sealing housing 15 may be formed to the lower end of the protective casing 7.
  • the sealing housing may alternatively be part of the frame 10 of the percussion device if no protective casing exists.
  • a further possibility is that at the lower end of the protective casing 7 is mounted a separate sealing assembly 16, which is illustrated by broken lines in Figure 2 .
  • the sealing ring 14 needs to withstand this transverse movement and keep the sealing tight.
  • the transverse forces and movements are utilized for generating a torque in the sealing ring 14 for making it rotate relative to the tool 6. If the tool 6 is moved repeatedly in one or few transverse directions, then the sealing ring 14 is subjected to local wearing in accordance with the transverse movements. This is a typical situation in the breaking hammers 1.
  • the relative position between the tool 6 and a sealing surface of the sealing ring 14 may be constantly altered, wherefore wearing of the sealing surface is more evenly distributed.
  • FIGS 3 and 4 show in more detailed manner the sealing housing 15 and the sealing ring 14.
  • the sealing housing 15 may be formed to a sleeve like piece 17, which may be supported to a lower end A of the protecting cover 7 by means of a bottom plate 18.
  • a first bottom plate component 18a may support the sealing ring 14 axially.
  • Around the piece 17 may be a second bottom plate component 18b, which may serve as a protective element around the sealing housing 15.
  • the bottom plate components 18a, 18b may be fastened fixedly together.
  • a mounting sleeve 20 may be fastened to the lower end of the protective casing 7 and may provide support for the sleeve like pieces 17 and 18.
  • the sealing ring 14 When assembling the sealing ring 14 into the sealing housing 15, the tool 6 is first removed and thereafter the sealing ring 14 may be pressed into a smaller outer dimension in order to allow it to be pushed inside the sealing housing 15. Thereafter, the tool 6 is pushed through the sealing ring 14 into its designed place and is locked by means of one or more locking pins. Thus, in the disclosed solution only the tool 6 needs to be dismounted when the sealing ring 14 is changed.
  • the sealing ring 14 prevents impurities from entering inside the structure of the breaking hammer 1.
  • the sealing ring has a second purpose, namely to prevent lubricating grease or corresponding lubricant to escape from a lubricating space 21.
  • the tool 6 may have a limited movement in a transverse direction T during the operation. As disclosed above in this patent application, the transverse movement is converted into rotation R of the sealing ring 14.
  • Figure 5 shows a sealing ring 14, which is provided with teeth 22 on its outer periphery 23.
  • the teeth 22 serve as the above mentioned slanting projecting elements, which may convert the transverse movement of the sealing ring 14 into torque for generating rotation.
  • the teeth 22 are slanted S relative to normal N of the outer periphery 23, as it is demonstrated in Figure 5 .
  • the teeth 22 are slanted only when seen in axial direction of the sealing ring 14.
  • An inner periphery 24 of the sealing ring 14 serves as a sealing surface against the tool.
  • the sealing ring 14 may comprise a mounting sector 25 for facilitating mounting of the sealing ring 14 as one uniform piece into a sealing housing.
  • the mounting sector 25 area is defined by at least two outer slits 26 and 27 on the outer periphery 23. Further, at least one inner slit 28 is located on the inner periphery 24.
  • the slits 26 - 28 have limited radial dimensions without extending to the opposing periphery of the sealing ring 14, and without shearing the sealing ring 14 into parts.
  • the outer slits 26, 27 and the inner slit 28 allow the mounting sector area 25 to be pushed inwards during mounting in order to decrease outer dimensions of the seal ring 14 for the duration of the mounting.
  • the slits 26 - 28 may end up to axial drillings or to corresponding end spaces 29, which may prevent cracking.
  • two adjacent teeth may form a combined tooth 22a so that the slit 28 and end space 29 may be positioned appropriately.
  • the slits 26, 27 and 28 define articulation points 30, which allow mounting sector components 25a and 25b of the sealing ring 14 to be bent inwards. Mounting of the sealing ring 14 is disclosed more detailed in Figures 7 , 9 and 10 .
  • Figure 6a is a detail H of Figure 7 showing some teeth 22 in their initial state
  • Figure 6b illustrates the situation when the sealing ring 14 is subjected to transverse movement caused by a force F.
  • the outer periphery 23 of the sealing ring 14 is toothed comprising several teeth 22, which are slanted. Slanting direction S is shown in Figure 6a as well as normal N of the outer periphery 23.
  • Each tooth 22 comprises flank surfaces 31, 32, which are slanted relative to normal N when seen in an axial direction of the sealing ring 14.
  • Each tooth 22 has a first flank surface 31, a second flank surface 32 and a tip portion 33.
  • the first flank surface 31 may be curved when seen in axial direction and the second flank surface 32 may be planar. Alternatively, the first flank surface 31 may also be planar surface and the second flank surface 32 may also be curved.
  • the tip portion 33 may be curved.
  • the sealing ring 14 is pushed towards the sealing housing 15. It is illustrated in Figure 6b that a tooth 22G is compressed when a gap G between the tool 6 and the sealing housing 15 is decreased.
  • the teeth may be bend and deform reversible, as a tooth 22F illustrates.
  • the deforming force F terminates and the gab G is extended, the deformed teeth 22G and 22F reverse into their initial shape.
  • tangential force component Ft is generated in addition to radial force component Fr.
  • the tangential force component Ft generates torque and makes the sealing ring 14 to rotate R.
  • the slanting elements, such as teeth 22, on the outer periphery 23 act as converting elements or spring elements for converting the transverse force F into torque, which is configured to generate a rotating movement of the sealing ring 14 in the direction of its periphery.
  • Figure 6b discloses in a highly simplified manner that an inner surface of the sealing housing, which faces the sealing ring 14, may be provided with a roughening 34 for preventing slippage and improving the rotation R of the sealing ring 14 when the generated torque exists.
  • the sealing ring is seen in axial direction.
  • the main features of the sealing ring 14 are disclosed already above.
  • the sealing ring is a single uniform piece.
  • the sealing ring 14 is provided with slits 26 - 28 for producing a mounting sector 25 area.
  • a mounting force M may be directed to sealing ring 14 for pushing the mounting sector area 25 inwards.
  • mounting sector components 25a and 25b may bend relative to each other and relative to the rest of the sealing ring structure.
  • outer dimension of the sealing ring 14 may be decreased for the duration of the mounting. Since the sealing ring is made of resilient material, the initial shape will recover after the mounting force M is terminated.
  • the sealing housing may be formed of halves, for example.
  • Figure 8 shows that the teeth 22 or corresponding projecting elements are not slanted in the axial direction.
  • Figure 8 also presents dimensions length L, radial thickness RD, inner diameter d and outer diameter D.
  • the sealing ring 14 may be a so called massive seal the relative dimension of which are defined above in this patent application.
  • a sealing ring 14 for sealing a tool of a breaking hammer may be without the above disclosed rotation feature. However, it may comprise several other features disclosed in this patent application.
  • the sealing ring 14 may be provided with the above disclosed slits for facilitating the mounting of the sealing ring.
  • the outer periphery of the sealing ring may be without the disclosed slanted protruding elements, such as teeth, since the sealing arrangement may be without the disclosed feature relating to rotation of the sealing ring relative to the tool and the sealing housing.
  • the outer periphery of the sealing ring may be smooth.
  • This kind of seal may be defined as follows: A seal of a tool of a percussion breaking hammer, wherein the seal is a ring-shaped piece having an inner periphery, an outer periphery and an axial length; the inner periphery is serving as a sealing surface and is intended to be arranged against the tool to be sealed; the outer periphery is intended to be facing a sealing housing; and the sealing ring is made of resilient material; and wherein the sealing ring comprises at least two outer slits on the outer periphery and at least one inner slit on the inner periphery; the slits have limited radial dimensions without extending to the opposing periphery of the sealing ring, and without shearing the sealing ring into parts; the at least two outer slits define a mounting sector area between them; the at least one inner slit is located at the mounting sector area; and wherein the outer and inner slits allow the mounting sector area to be pushed inwards during mounting in order to decrease
  • the initial outer diameter D may be reversibly deformed to a smaller mounting diameter DM.
  • a first embodiment of the seal may comprise additional features as follows: the sealing ring is provided with two outer slits 26, 27 on the outer periphery 23 and one inner slit 28 on the inner periphery 24; the mounting sector area 25 defined by the outer slits has a sector angle SA 100 - 120°; the at least one inner slit 28 is located in a middle of the mounting sector area 25; and the sealing ring 14 resembles small letter omega symbol ⁇ when set to a mounting state by pushing the mounting sector area inwards for the mounting of the sealing ring 14.
  • a second embodiment of the sealing ring 14 may comprise an additional feature as follows: the slits 26 - 28 may end up to axial drillings or to corresponding crack preventing end spaces 29.
  • a third embodiment of the sealing ring may comprise the additional features as follows: the sealing ring 14 and the sealing housing 15 both have uniform or unbroken structure.
  • the sealing ring is a massive sealing ring as defined above in this patent application.
  • the sealing ring may be made of the above mentioned materials and it may be utilized in the above mentioned arrangement and breaking hammer.

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  • Engineering & Computer Science (AREA)
  • General Engineering & Computer Science (AREA)
  • Mechanical Engineering (AREA)
  • Mining & Mineral Resources (AREA)
  • Civil Engineering (AREA)
  • Structural Engineering (AREA)
  • Sealing Devices (AREA)
  • Percussive Tools And Related Accessories (AREA)

Claims (15)

  1. Dichtung eines Werkzeugs eines Brechhammers, wobei
    - die Dichtung ein ringförmiges Stück mit einem Innenumfang (24), einem Außenumfang (23) und einer axialen Länge (L) ist;
    - wobei der Innenumfang (24) als Dichtungsfläche dient und dazu bestimmt ist, an dem abzudichtenden Werkzeug (6) angeordnet zu werden;
    - wobei der Außenumfang (23) dazu bestimmt ist, zu einem Dichtungsgehäuse (15) gewandt zu sein; und
    - wobei der Dichtungsring (14) aus einem elastischen Material besteht;
    - dadurch gekennzeichnet, dass
    - der Außenumfang (23) des Dichtungsrings (14) mit mehreren vorspringenden Elementen (22) versehen ist, und
    - die vorspringenden Elemente bei Betrachtung in einer Achsenrichtung des Dichtungsrings (14) in Bezug auf die Normale (N) des Außenumfangs (23) geneigt sind.
  2. Dichtung nach Anspruch 2, dadurch gekennzeichnet, dass
    - der Außenumfang (23) des Dichtungsrings (14) gezahnt ist und mehrere geneigte Zähne (22) umfasst.
  3. Dichtung nach Anspruch 2, dadurch gekennzeichnet, dass
    - jeder Zahn (22) des Außenumfangs (23) des Dichtungsrings (14) Flankenflächen (31, 32) umfasst, die bei Betrachtung in einer Achsenrichtung des Dichtungsrings (14) in Bezug auf die Normale (N) des Außenumfangs (23) geneigt sind.
  4. Dichtung nach Anspruch 3, dadurch gekennzeichnet, dass
    - jeder Zahn (22) eine erste Flankenfläche (31), eine zweite Flankenfläche (32) und einen Spitzenabschnitt (33) aufweist;
    - die erste Flankenfläche (31) bei Betrachtung in der Achsenrichtung gebogen ist, und die zweite Flankenfläche (32) eben ist; und
    - der Spitzenabschnitt (33) gebogen ist.
  5. Dichtung nach einem der vorhergehenden Ansprüche 1 bis 4, dadurch gekennzeichnet, dass
    - der Dichtungsring (14) an dem Außenumfang (23) zumindest zwei Außenschlitze (26, 27) und an dem Innenumfang (24) zumindest einen Innenschlitz (28) umfasst;
    - die Schlitze (26, 27, 28) begrenzte radiale Abmessungen aufweisen, ohne sich in den gegenüberliegenden Umfang des Dichtungsrings (14) zu erstecken, und ohne den Dichtungsring (14) in Teile zu scheren;
    - die zumindest zwei Außenschlitze (26, 27) zwischen einander eine Anbringungssektorfläche (25) definieren;
    - sich der zumindest eine Innenschlitz (28) an der Anbringungssektorfläche (25) befindet; und
    - wobei die Außenschlitze und der Innenschlitz (26, 27, 28) gestatten, dass die Anbringungssektorfläche (25) während der Anbringung einwärts geschoben wird, um die Außenabmessungen des Dichtungsrings (14) für die Dauer der Anbringung zu verringern.
  6. Dichtung nach Anspruch 5, dadurch gekennzeichnet, dass
    - der Dichtungsring (14) an dem Außenumfang (23) mit zwei Außenschlitzen (26, 27) und an dem Innenumfang (24) mit einem Innenschlitz (28) versehen ist;
    - die durch die Außenschlitze (26, 27) definierte Anbringungssektorfläche (25) einen Sektorwinkel (SA) 100 bis 120° aufweist;
    - sich der Innenschlitz (28) in einer Mitte der Anbringungssektorfläche (25) befindet;
    und
    - der Dichtungsring (14) dann, wenn er durch Einwärtsschieben der Anbringungssektorfläche (25) für die Anbringung des Dichtungsrings (14) in einen Anbringungszustand gebracht ist, dem Kleinbuchstabensymbol Omega (ω) ähnlich sieht.
  7. Dichtungsanordnung, umfassend:
    - ein Werkzeug (6), bei dem es sich um ein längliches Stück handelt;
    - ein Dichtungsgehäuse (15), das um das Gehäuse (6) herum angeordnet ist;
    - einen ringförmigen Spalt (G) zwischen einer Außenfläche des Werkzeugs (6) und einer Innenfläche des Dichtungsgehäuses (15); und
    - einen Dichtungsring (14), der zur Abdichtung des Spalts (G) eingerichtet ist;
    - dadurch gekennzeichnet, dass
    - der Dichtungsring (14) den Ansprüchen 1 bis 6 entspricht; und
    - sich der Dichtungsring (14) in Bezug auf das Dichtungsgehäuse (15) und das Werkzeug (14) in der Richtung seines Umfangs drehen (R) kann.
  8. Dichtungsanordnung nach Anspruch 7, dadurch gekennzeichnet, dass
    - eine relative Bewegung zwischen dem Werkzeug (6) und dem Dichtungsgehäuse (15) in einer quer zu der Längsachse des Werkzeugs (6) verlaufenden Richtung (T) dazu eingerichtet ist, eine umkehrbare Verformung und Wiederherstellung der geneigten vorspringenden Elemente an dem Außenumfang (23) des Dichtungsrings (14) zu verursachen und eine Drehung (R) des Dichtungsrings (14) zu erzeugen.
  9. Dichtungsanordnung nach Anspruch 7 oder 8, dadurch gekennzeichnet, dass
    - zumindest das Dichtungsgehäuse (15) mit einer Aufrauhung (34) versehen ist, um die Reibung zwischen dem Dichtungsring (14) und dem Dichtungsgehäuse (15) zu erhöhen
  10. Brechhammer, umfassend:
    - eine Schlagvorrichtung (4);
    - ein Werkzeug (6), das an die Schlagvorrichtung (4) angeschlossen werden kann;
    - ein Dichtungsgehäuse (15), das um das Werkzeug (6) herum angeordnet ist;
    - einen Dichtungsring (14), der sich in dem Dichtungsgehäuse (15) befindet;
    - und wobei der Dichtungsring eine Öffnung (14) aufweist, durch die das Werkzeug (6) verläuft, wodurch der Dichtungsring (14) dazu ausgebildet ist, einen Spalt (G) zwischen dem Werkzeug (6) und dem Dichtungsgehäuse (15) abzudichten;
    - dadurch gekennzeichnet, dass
    - der Dichtungsring (14) den Ansprüchen 1 bis 6 entspricht; und
    - sich der Dichtungsring (14) in Bezug auf das Dichtungsgehäuse (15) und das Werkzeug (14) in der Richtung seines Umfangs drehen (R) kann.
  11. Brechhammer nach Anspruch 10, dadurch gekennzeichnet, dass
    - der Brechhammer (1) ein Schutzgehäuse (7) umfasst, das die Schlagvorrichtung (4) umgibt;
    - das Schutzgehäuse (7) mit einer Werkzeugöffnung versehen ist, durch die verlaufend das Werkzeug (6) angeordnet ist;
    - sich das Dichtungsgehäuse (15) und der Dichtungsring (14) an der Werkzeugöffnung des Schutzgehäuses (7) befinden.
  12. Brechhammer nach Anspruch 10, dadurch gekennzeichnet, dass
    - die Schlagvorrichtung (4) einen Rahmen (10) umfasst; und
    - sich das Dichtungsgehäuse (15) und der Dichtungsring (14) an dem werkzeugseitigen Ende (A) des Rahmens (10) befinden.
  13. Brechhammer nach Anspruch 10, dadurch gekennzeichnet, dass
    - der Brechhammer (1) ein gesondertes Dichtungsrahmenstück (16) umfasst, das an einem werkzeugseitigen Ende (A) des Brechhammers (1) angebracht ist; und
    - das Dichtungsrahmenstück (16) mit dem Dichtungsgehäuse (15) und dem Dichtungsring (14) versehen ist.
  14. Verfahren zum Abdichten eines Werkzeugs eines Brechhammers, wobei das Verfahren Folgendes umfasst:
    - Versehen des Brechhammers (1) mit zumindest einem Dichtungsring (14);
    - Anordnen des Dichtungsrings (14) in einem Dichtungsgehäuse (15) des Brechhammers (1); und
    - Führen des Werkzeugs (6) durch eine Öffnung des Dichtungsrings (14);
    - gekennzeichnet durch
    - Verwenden eines elastischen Dichtungsrings (14), der an einem Außenumfang (23) des Dichtungsrings (14) mit vorspringenden Elementen (22) versehen ist, wobei die vorspringenden Elemente (22) bei Betrachtung in einer Achsenrichtung des Dichtungsrings (14) in Bezug auf die Normale (N) des Außenumfangs (23) geneigt sind;
    - Gestatten, dass der Dichtungsring (14) während der Verwendung des Brechhammers (1) Kräften ausgesetzt wird, die quer (T) zu der Längsachse des Werkzeugs (6) verlaufen;
    - Verursachen einer wiederherstellbaren Verformung der geneigten vorspringenden Elemente des Dichtungsrings (14) infolge der quer verlaufenden Ablenkkräfte (F);
    - Wiederherstellen der Form der geneigten Elemente zu ihrem ursprünglichen Zustand nach dem Ende der Ablenkkraft (F) und Erzeugen eines Moments in dem Dichtungsring (14) mittels der Wiederherstellung; und
    - Drehen (R) des Dichtungsrings (14) mittels des erzeugten Moments in Bezug auf das Werkzeug (6) und das Dichtungsgehäuse (14).
  15. Verfahren nach Anspruch 14, gekennzeichnet durch
    - Erzeugen des Moments für die Drehung (R) des Dichtungsrings (14) mittels geneigter Zähne (22) an dem Außenumfang (23) des Dichtungsrings (14).
EP14171686.0A 2014-06-10 2014-06-10 Dichtung von Werkzeug und Verfahren zum Abdichten Active EP2954983B1 (de)

Priority Applications (3)

Application Number Priority Date Filing Date Title
EP14171686.0A EP2954983B1 (de) 2014-06-10 2014-06-10 Dichtung von Werkzeug und Verfahren zum Abdichten
ES14171686.0T ES2620495T3 (es) 2014-06-10 2014-06-10 Cierre estanco de herramienta y método para hacer un cierre estanco
US14/749,563 US9777842B2 (en) 2014-06-10 2015-06-24 Seal of tool and method of sealing

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
EP14171686.0A EP2954983B1 (de) 2014-06-10 2014-06-10 Dichtung von Werkzeug und Verfahren zum Abdichten

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CN107938740B (zh) * 2016-05-31 2020-05-22 浙江岭德重工有限公司 一种破碎锤的使用方法
EP3446835A1 (de) * 2017-08-21 2019-02-27 Sandvik Mining and Construction Oy Dichtung und verfahren zum dichten eines werkzeugs eines brechhammers
US11453996B2 (en) * 2019-08-20 2022-09-27 Caterpillar Inc. Sealing assembly

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EP2954983A1 (de) 2015-12-16
ES2620495T3 (es) 2017-06-28
US9777842B2 (en) 2017-10-03

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